Variable pitch aerial propeller



April 1, 1941. n c. R. WASEGE 2,236,841

VARIABLE FITCH AERIAL PROFELLER i l Inl/er1 pr* c., R. wAsElGE VARIABLE FITCH AERIAL PROPELLER Filed July 27. 1938 5 Sheets-Sheet 2 April 1', 1941.

c. R. wAsEx'Gx-z 2,236,841-

VARIABLE FITCH AERIAL PROPELLER vEiled Ju15T 27, 1938 5 Sheets-Sheet 5 April 1, 1941. C, R. WASEIGE 2,236,841

VRIA'BLE FITCH AERIAL PROPELLER Filed July 27, 1938 5 Sheets-Sheet 4 April l, 1941. c. R. wAsElGE 2,236,841

VARIABLE PITCH AERIAL PROPELLER Patented Apr. l, 1941 vOFFICE yVARIABLE Prrcn AERIAL PRoPELLEa Charles Raymond Waseige, Rueil, France Application July 27, 1938, Serial No. 221,595 In France July 30, 1937 9 Claims.

The present invention relates to variable pitch aerial propellers which can be utilized on land, sea-going or aerial vehicles. In this kind of propeller the pitch varying mechanism often comprises a gear wheel, a sleeve or other member which is arrangedcoaxially with respect to the propeller shaft and drives members or groups of members distributed over the hub which are equal in number to the blades of the propeller l and which are respectively associated with the various blades and cause each of same to move about its own axis, said member which is coaxial with the propeller shaft being itself connected through a transmission to a source of power formed by the actual crankshaft of the engine or by an auxiliary electric or other motor.

` The primary object of the invention is to provide for the variation of pitch of two coaxial propellers respectively mounted on two shafts which are arranged one inside the other and are driven inthe same direction or in opposite'directions by the same engine or by two different engines.

, For this purpose, the coaxialmember' of foremost one propeller is driven through the intermediary of an epicyclic transmission having planet gears which are compelled to rotate in unison with each other and are loosely mounted on the propeller xed on the outer shaft, said planet gears meshing respectively with sun wheels which are.coaxial with the propellers and are arranged on either side of said propeller carried by th outer shaft, the sun wheel located between the two pro- Fig. 1 is a longitudinal vertical section through lthe axis of the propeller shafts of an embodiment of the invention in the case of two propeller shafts invariably connected to each other and driven for example by the same engine;

Fig. 2 is a section along the-line II--II of Fig. 1;

Fig. 3 is an end view of the propeller hub;

Fig. 4 is a detailed sectional view ofthe cam operated switches in the chamber 55;

Fig. 5 is a diagram of the electric controls;

Fig. 6 is a sectional view of an adjustable device for automatically controlling the pitch variation; and

Figs. 'la and 'lb are two parts to be joined to each other along the line X-X, of a similar view to that of Fig. 1, Ywhich shows a modification of the embodiment of Fig, 1 in the case in which the shafts of the two coaxial propellers are independent of each other and are ,driven by separate engines. In Fig. 7b there have furthermore been shown diagrammatically the driving engines and alsov the oil supply pipes forthe clutches of the pitch varying mechanisms.

The embodiment illustrated in Figyl the case of two propellers A, B mounted one behind the other on two concentric shafts l2, 13, rotating in opposite directions to each other at v the same'speed or at any speeds but which are pellers being compelled to rotate said coaxial-- member and the other being loose on the outer shaft and driven by the pitch varying mechanism.

Said sun wheel, which is loosely mounted on the outer shaft, can be actuated by any means, advantageously in the manner described above in the case of a single propeller. If the two shafts are invariably connected to each other, for example driven by the same engine, one and the same mechanism may be provided for actuating the Atwo coaxial members carried by the outer shaft; in the case of independent shafts which are driven for example by two different engines, two separate control mechanisms will be provided. Y,

By way of non-limitative examples, a plurality of embodiments of the invention have been shown in the accompanying drawings, saidembodiments having the above mentioned features and furthermore offering certain other peculariies which also form detail objects of the invenion. v

In said drawings:

-by the same engine. v each propeller A, B is provided, for varying the in a constant ratio with each other; this is the case for example of two propeller shafts driven In the embodiment shown,

pitch of the blades, with amechanism of the type Each propeller hub I which is fixed on the associated propeller shaft l2, 13 has its length reduced substantially to the diameter of the cases 3 of the blade roots 4, Each blade root 4 carries at its base a spur gear 5 meshing with a rack 6 carried by an internally screw-threaded and nonrotatable sleeve l screw-threaded on a screw 8 having its axis parallel with the propeller shafts ried by the hub of the front propellerA -mesh with a. gear Ila loosely mounted on the propeller shaft l2 and which consequently forms a drivrelates to ing member which is common to these various groups.

Similarly the hub I of the rear propeller B is provided with groups of members similar to said groups of members 5 to I0 on the hub of the propeller A and the various gears IIJ of said groups carried by the propeller B are all in mesh with a gear IIb loose on the outer propeller shaft 13. This gear IIb is operatively connected to the gear I Ia through the following gearing.

Gear IIa is secured to a spur gear I2a in mesh with a planet gear 14 keyed on a shaft 15 parallel with the propeller shafts and rotatably journaled in the hub of.the propeller B; on said shaft 15 is keyed behind the propeller B another planet gear 16 meshing with a spur gear 11 loosely carried by the outer shaft 13 and secured by a connecting sleeve 82 to a bevel gear 18 in mesh with a counter bevel pinion 19, located between the gear 18 and the propeller B and loosely journaled in a stationary bracket 80. Said bevel pinion 19 meshes with a. bevel gear 8| secured to the gear IIb which is loose on said connecting sleeve 82. An epicyclic transmission is thus formed having planet gears 14, 16 which are compelled to rotate in unison with each other and are loosely mounted on the propeller B fast on the outer shaft 13 and respectively meshing with sun gears I2a, 11 which are coaxial with the propellers and are arranged on either side of said propeller B, the gear I2a located between the two propellers being secured to said coaxial member Ila and the other, 11, being loosely mounted on the outer shaft 13. The double gear 11, 18 is secured to a spur gear I2b coaxial with the progears I Ia, I Ib at the same speed as the propellers as though they were integral with the hubs I; as the gear ratio of the gearing IIa., I2a, 14, 15, 16, 11 is equal to I, the gear 11, and consequently the gear I2b secured thereto, are rotated through said gearing from the gear IIa and through the gearing 8I, 19, 18 from the gear IIb at the same speed as the propellers; the gear I2b thus rotates the shaft I4 at a speed which depends on the propellers speed. On the other hand, the gears 24-22 and 26-25 respectively rotate the plates I8 and I9 at speeds, one of which is very slightly higher and the other very slightly lower than that of the shaft I4; the difference of speed between the two members 20 and I8, onthe one hand, and 20 and I9 on the other hand, of each clutch is therefore very small and may be chosen by construction as small as desired. If current is passed through the winding of the plate I8, the armature 20 is attracted and the shaft I4 is compelled to rotate at the speed of the plate I8 which is slightly higher than that at which it previously rotated; it ensues that the gear I 2b is rotated slightly faster than the propeller shafts. It consequently rotates both gears IIb and IIa at a faster speed and the latter rotate in turn the associated gear I0 about their own axes, thereby causing, by rotating the screw 8, a longitudinal movement of the nuts 1 and the same variation of the pitch of the blades of the two propellers A and B. By passing the current peller shafts and in mesh with a gear I3 fast on the end of a shaft I4 which is parallel with the propeller shafts and is journaled in bearings I5 of a support I6 having the shape of a case. Said support I6, in'which is journaled the outer propeller shaft 13, is xed on the supporting case of said propeller shaft. On the shaft -I4 inside the case I6 are loosely mounted the winding support plates I8, I9 of two electromagnetic clutches having the same armature 29 carried between said two plates I8,. I9, by a plate 2l fast on the shaft I4 and resiliently deformable transversely. The plate I8 carries a gear 22 meshing with a gear 24 fast on the outer shaft 13 and the plate I9 carries a gear 25 meshing with a gear 26 likewise fast on the outer shaft 13. Conducting rings 28 which are fixed on the plates I8, I9. and rub against brushes 29 carried by the case IB, serve for the feed and the return of the supply current for the windings of said electro-magnetic clutches. The transmission ratio of the gears 24-22 is very slightly lower than that of the gears I2-I3 which is itself very slightly lower than that of the gears 2li-'25.

On said shaft I4 is furthermore fixed another armature 3l which is similarto the armature 20 and co-operates with two winding support plates 32 and 33, one of which, 32, is flxed'to the case I6 and the other of which, 33, is loosely mounted on the shaft I4 and carries a gear 34 meshing through the winding of the plate I9,the gears I la, and I2b are similarly caused to rotate slightly s1ower-.than the propeller shafts, thereby causing a variation of pitch in the opposite direction to the previous one.

When current' is sent through on or other of the windings of the plates 32, 33, the variation of pitch is produced in a similar manner to that just described but at a much greater speed in order to produce a very quick reversal of the pitch, in a time of less than one second.

In the case offpropellers rotating at speeds which are different but are always in the same ratio, either positive or negative according to whether the propellers are rotating in the same direction or in opposite directions, the pinion 19 is replaced by va transmission having a ratio which is equal to the ratio of the speeds, or again the epicyclic transmission is constructed in such Aa manner thatits ratio is equalto the ratio of .said speeds. Y

In the case of propellers rotating in the same direction at the same speed, the wheel IIb may be eliminated and the wheel 1.1 is this case forms the coaxial member of the propeller B.

with a gear 35 fast on the shaft 2; the supply of the winding of the plate 33 is effected by means' of rings 28 and brushes 29, as for the clutches I8 and I9. The transmission ratio of the gear 35-34 is'yery much higher than that l of the gears 24-22.

the respective hubs of the propellers drive the The supply of current to the electro-magnetic clutches can be effected in'the present exemplary embodiment according to the diagram.of Fig. 5. In said diagram, each plate I8, I9, 32, 33 carries two terminals 38 and 39 for the input and output of the current in its winding. The various terminals 38 are connected in parallel to one of the poles of a battery of accumulators 40, through the intermediary of the rings 28 and the brushes 29 asregards the rotating plates I8, I9 and 32. The terminals 39 of the plates I8, I9 of the mechanism for the slow variation of the pitch are respectively connected to the two terminals 4I of a two-way switch 42, the common terminal 43 of which is connected to a terminal 44a of another .two-way switch 45, the common terminal 46 of which is connected to the other pole of the battery 40. The other terminal 44h of the switch 45 is connected in parallel to the to the terminals 39 of the Aplates 33 and32. 'Ihe same pivoting handle 50 serves to actuate the switches 45 and 48; in the position shown, the

contact exists betweenthe terminals 46 and 44a and the switch 42 is thusconnected to the battery 40; on the other hand the contact is broken between the terminals 46 and 44b. By moving the handle 50 in one direction' or the other, said handle breaks the contact between the terminals 46 and 44a and makes vsame between the terminals 46 and 44b, thereby connecting the two switches 48 to the battery, then the handle 50 actuates the switch 48 towards which it is pushed and the current is sent into one or the other of the plates 32,33. M

Furthermore, the supply. circuits of the electro-magnetic clutches each includes. switch 5|, 52, 53, 54, which is automatically controlled by the pitch indicator mechanism and breaks the circuit and stops the variation of the pitch or the reversal at predetermined values of the pitch.

mon to the clutches I8, I9 for 'the automatic slow -variation of the pitch, between the stud 44a-of"VV the switch 45 and the pivoting'brush 6|,fis interj posed a switch 69 which is Aactuated by the throttle control lever, for example through the intermediary of a cam, in such a manner as only` to be closed beyond a predetermined degree of opening of said lever. .Any automatic variation of the pitch is thus prevented above a predetermined speed of the engine. y

In'order to enable the propeller to be placed in the position of least resistance to the forward movement of the vehicle, in the event of a breakdown of the driving engine, the direction of the pitchrofvthe screw 8 for controlling the blades willbe so chosen that by stopping or slowing .l -down theshaft' I4, anincrease of the pitch of the blade will be obtained. In' this manner, in

v as a brake, a dog, etc., in order to obtain the position of least resistanceassuming that the movementV of the vehicle causes the propeller to Said switches 5| to 54 are preferably grouped in the same chamber 55 (Figs. 1 and 4) through which passes the shaft 56 for actuating the pitch indicator and on which shaft are xed four suitable cams 58. .The mechanism for actuating the pitch indicator is of known type provided with a differential and willnot be described herein.

The embodiment shown in the drawings furthermore includes a device for automatically actuating the switch 42 for the slow gradual variation of the pitch.` Forthispurpose, said switch is provided with two contacts shaped like oppositeA segments ofA a circle and respectively connected tothe terminals 4I von which is adapted t0 move a pivoting brush 6I, the spindleof which carries a gear 62 meshing with a toothed quadrant 63 carried by a pivoting lever 64, which is actuated by a centrifugal device v65, such as a centrifugal governor or, preferably and as shown, an instantaneous-revolution-counter. It is also possible to use a chronometric tachometer for this purpose.v -Said instantaneous revolutioncounter being driven by the engine, moves theA lever 64 in one direction or'the other as soon as the speed of the engine deviates, more or less,

from a predetermined value, the brush 6| moves v on to one of the segments 60 and the correspondy ing clutch is supplied with current until the governor has returned the brush 6| to its neu- `tral position between the two segments 60.

It will be noted that owing to the presence of the two-way switch 45, it is impossible for the l automatic variation mechanism and the reversing mechanism to operate simultaneously.

The arrangement of the centrifugal masses and of the spring is effected in such a manner that for a given difference o f revolutions there is always substantially the same angular displacement of the lever 64, whatever be the speed of rotation. In this manner 'the range oi adjustment is always the same.

The segments 60 of the switch 42 are carried by an angularly movable plate which is provided with a gear 61 engaging with a driving pinion 68 connected to a handle, not shown, within reach of the pilot and the displacement of which by` the latter produces a rotation of said pinion 68 and consequently an angular displacement of the segments 60, thereby modifying the neutral po- ,the event of a breakdown of the engine, it will sufce to lock the shaft I4 by any means such rotate;` if the propeller cannotl Arotate :because theV engine is seized or forany other reason, ay

driving mechanism is addedl to the shaft I4,

said driving mechanism being adapted to beA actuated by -an emergency device or vby hand; and` being capable of rotating said shaft I4 `in the' 'f mission Yshafts ,and gears,vonly the gear YIII) of which has been shown,'fast` on the outer shaft 13. The coaxial member IIa'tof the propeller A' is actuated through the'intermediary of a similar epicyclic transmission to that of the embodiment of Fig. 1 save that the sun gear 11' which is located behind the propeller B fast on the `outer shaft is in this case interposed between the coaxial member IIb of the propeller B and the gear |2b' driving said member llb;` the essential difference between the embodiment of Fig. 1 and that of Figs. 7a and '7b is that the gear v 11 isnot driven by thefgear I'ib', as is'the gear "11 by the gear I2b (Fig:- 1) but is independent and is driven lby a gear 12d( which is integral ,with the gear Ia' in thejpresentexample, and that the gears |20. I2b' meshvrespectively with` gears |3a, I3b which are driven by corresponding auxiliary shafts I4a", I 4b', said two shafts each carrying clutches which are respectively provided with the parts 18a', I9a', 20a', and the parts Ib, I9b, 20h and which are similar to the clutches I8, I9, 20, of the embodiments of Fig. 1. The blade control mechanisms for the two propellers are thus independent o'f each other. In the case of automatic control of the pitch variation by means of av centrifugal device which is adapted to 'keep constant the speed of the engine driving the propeller, each control mechanism is provided with its own centrifugal device;

g if it is desired to make the enginesrotate at the same speed, the two centrifugal devices are synchronized by known means.

On the other hand, the clutch members Illa', |9a', |8b', I 9b which are loosely mounted on the corresponding auxiliary shaft 4a', |4b', are respectively driven by gears 24a', 25a', and 24D',

sition of the brush 6| and consequently the engine speed which has .to be maintained by the governor.

On the part ofthe supply circuit which is com- 25D which are mounted on counter shafts Sla', 8Ib' carried by the case I6. Said shafts 8|a,

8|b are respectively driven in the following manner (Fig. 7b) by the engines Ma and Mb. Each of them in this case carries two clutcheswhich are designated by II2a and Il3a' for the shaft Bla', and by II2b' and II3b' for the shaft 8Ib; said clutches are in this case hydraulic clutches to which oil under pressure is supplied by means which will be described hereinafter. To the driving element of each clutch is secured a gear designated by IIAa, H50. for the gears II2a' and II3a', by IIIIb', II5b' for the gears II2b' and II3b'. The gears Ilda and H512" mesh'with a common gear II6 fast on the outer shaft 13 whereas the gears lla.' and IIIIb' mesh with a gear II'I fast on the part of the inner shaft 12 which projects beyond the end of the shaft 13. It Will therefore be seen that two transmissions are thus formed which connect the clutch carrier shaft of the pitch varying mechanism of one propeller to one of the propeller shafts and that of the other propeller to the other propeller shaft.

Two separate oil force pumps II8a and II8b, one of which, I I8a, is actuated by the engine Ma, and the other I I8b, by the engine Mb, are shown in the drawings as being the actual lubricating pumps of said engines. nected by a pipe II9a to a union I2lla whence a pipe I2Ia extends to a bearing I22a of the shafti 8 Ia' which is provided opposite said bearing with holes which open into an axial bore I23a of said shaft, said bore communicating with Athe inside of the clutch II2a; the pump II8b is similarly connected by the pipe II9b, the union |2017, and the pipe I23b to the clutch I I2b on the shaft BIb'. A pipe I25a in parallelwith the pipe Il9a connects the pump I I8a to a union |26 whence pipes similar to the pipes I2Ia and I23a extend to the clutch II3b; similarlyl a pipe I25b in parallel Withthe pipe I|9b connects the pump II8b to a union |21 whence pipes extend to the clutch I I3a'. Two cocks I29a and I29b or like members are arranged respectively on the pipe I25a and on the pipe I25b.

It is obvious that when the cock I29a is closed, the pump II8a is only connected to the clutch I I 2a' of the pitch varying mechanism of the propeller driven by the engine Ma which actuates the pump IIBa; similarly, when the cock I29b is closed, the pump I I8b is only connected to the clutch II2b of the pitch varying mechanism of the propeller driven -by the engine Mb which actuates the pump IIBb. Said clutches II2a' and II2b' are thus held in engagement by the pressure of the oil forced up by the pumps II8a and II8b so that the shafts Sta' and 8Ib' are respectively rotated by the shafts I3 and 'I2 and each pitch varying mechanism is thus in the operative condition. The clutches H30.' and II3b do not receive any'oll under pressure and are disengaged.

If any one of the engines stops, the engine M for example, the corresponding pump IIBa also stops and the clutch II4a' is released, whereby the shaft Bla is no longer driven by the shaft I3 of the corresponding propeller, but if the cock I29b is then opened, oil under pressure is forced into the clutch II3a' by the pump II8b which is driven by the other engine that continues to rotate, thereby securing the shaft Bla' to the gear II5a'; the shaft 8Ia' is then driven by the propeller shaft 12 through the .intermediary of said gear II5a' andof thegear II'I so that the pitch varying mechanism of the propeller` of the broken down engine can operate, at any rate in order to bring the blades into the position of least resistance to the forward movement of the vehicle even if thevpropeller shaft is locked.v

The pump IIBa is con- It is obvious that the operation of thedevice is similar when it is the engine Mb that stops, the opening of the cock I 29u re-establishing the possibility of operation of the pitch varying mechanism of the propeller driven by the engine Mb.

It is obvious that neither of the cocks I29a, I29b must be open when the two engines are rotating normally. In order to prevent any mistaken manipulation in the case in which each cock is operable by a manual control which is available to the pilot, it is advisable that there should exist a device for locking the cock or its control in the closed position, which device is made responsive to the operation of the engine, for example by means of a movable member which is held in the position corresponding to the locking of the cock, against the action of a spring, by a force produced by the rotation of the engine or again by an electric current which only circulates when the ignition circuit of the engine is closed.

Instead of the manual control or in addition to same, each cock may be automatically controlled through the intermediary for example of a similar device to the one described above for actuating the locking mechanism.

It will be noted that the above described hydraulic clutches could be electromagnetic or centrifugal clutches. Similarly the oil under pressure will preferably be conveyed to the clutches by using the hollow driving shafts of the propellers as conduits.

It will be noted that the use of an intermediate shaft such as 8Ia may also be applied in the case of Fig. 1, and that it offers in particular the advantage of eliminating the large diameter gears 24, 25, 34 (Fig. 1) which it enables to be replaced by much smaller gears such as the gears 24a. 25a', 34a in Fig. 7b; such an arrangement I furthermore and particularly offers this advantage of enabling the movement take-off to be effected at any point and the auxiliary shafts to be arranged in any manner relatively to the driving shafts of the propeller.

In all cases, the case I6 may form, with the auxiliary shaft or shafts, with or without a counter-shaft an autonomous assembly which may be mounted as' a unit on an existing engine or in any other appropriate spot in an aircraft.

Of course the invention is in no Way limited to the construotional details illustrated and described which have only been given by way of example. Thus, in particular, without exceeding the scope of the invention; it is possible to substitute mechanically, pneumatically or hydraulically actuated clutches of another type forthe electromagnetic clutches: similarly the propeller need not have any reversing mechanism, the mechanism carried by the hub for driving each blade may be different from the one described, the movement take-off for driving the shafts 8Ia', 8Ib'` may be effected at any point of the engine or of the transmission between `the engin'e and the propeller. v

What I claim is:

1. A pitch varying mechanism for propelling means including two aerial propellers with variable pitch coaxially arranged one behind the other, each of which includes a hub -and propeller blades rotatably carried by said hub and two concentric inner and outer propeller shafts respectively carrying said propellers, a transmission member associated with the propeller carried by the inner shaft and arranged between said two propellers and coaxially thereto a plurality of motion transmitting contrivances carried by the hub of the propeller fast on the inner shaft and respectively connecting said transmission member to the various blades of this propeller and 'the propeller fast on the outer shaft and compelled to 'rotate in. unison with each other and sun wheels arranged on either side of and coaxially-to said propeller fast on the outer shaft one between the two propellers and the other on the opposite side of said propeller on the outer shaft, the sun wheel located between the two propellers being connected to said transmission member so that an angular motion of said sun wheel relatively to the inner shaft will cause a motion of said transmission member relatively to the same sha-it, separate engines for rotating separately said propeller shafts, a motion transmitting means arranged on the same side of the Propeller on the outer shaft as thesun wheel around said shaft, coaxially therewith and movable relatively to said shaft, a plurality of motion transmitting contrivances carried by the propeller fast on the o uter shaft and respectively connecting said motion transmitting means to the various blades of the propeller on the outer shaft to transform a motion of said means relatively to the outer shaft into a pitch varying motion of the blades, and separate actuating mechanisms for respectively rotating said other sun wheel and the motion transmitting means. v

2. A pitch varying mechanism as in claim 1, said actuating mechanisms being respectively drivable from said separate engines.

3. A pitch varying mechanism as in claim 1, said actuating mechanisms being each drivable from each of said separate engines.

4. A pitch varying mechanism as in claim 1, wherein each of said separate actuating mechanisms includes a countershaft and two gear transmissions between said countershaft and said engines, respectively, each of said gear transmissions including a clutch, and control means iur said clutches.

V5. A pitch varying mechanism as in claim 1, wherein each oi said separate actuating mechanisms includes a. countershait and two gear transmissions between said countershait and said engines, respectively; each of said gear transmission including a clutch, and control means for said clutches, the control means oi' the clutch which forms part of the transmission between the countershait and the engine other than the engine driving the propeller associated with the actuating mechanism oi' which said/clutch is a. part comprising a movable member, means urging said member in one direction, and antagonistit'means urging said member in the opposite direction with a force which depends on the running oi the engine vdriving the propeller associated with the actuating mechanismiof which saidciutchisaparhinsuchamannerthatsaid clutch willl engage 'automatically upon stopping of said last named-engine.

6. A pitch varying mechanism as in claim. 1, wherein each of said separatev actuating mechanisms includes a counterslzaft and two gear transmissions between said countershait and said engines, respectively, each of said ,gear transmission including a clutch and control means. for said clutches, the control means of the clutch which is part of the transmission between the countershaft and the engine driving the propeller associated with the actuating mechanism of which said clutch is a part. comprising a device driven by said. engine and thereby energlsed, said device cooperating with the clutch in such a manner as to hold the clutch in engagement when energised and release said clutch when deenergised as on stopping of said engine.

'1.Apitchvaryingmechanismasinclaim1. wherein each of said separate actuating mechanisms includes a coxmtershaft and two gear transmissions between said countershaft and said engines, respectively, each of said gear transmissions including a clutch and control means for said clutches, the control means of the clutch which forms part of the transmission between the countershait and the engine other than the engine driving the propeller associated with the actuating mechanism of which said clutch is a part including a movable member manually operable by the pilot.

8.Apitehvaryingmechanismasinclaim 1 wherein each of said separate actuating mechasociated with the actuating mechanism of which said clutch is a part. v

9. A pitch varying mechanism as in claim 1,

wherein -each of said separate actuating mechanisms includes a countershaft and two gear trans- A missions between said countershaft and said en- 'release same, and means energisable in dependen'ce on the rimning of said engine and adapted to operate said member.

CHARLESAYMOND WASEIGE. 

